Information output device, camera, information output system, information output method, and program

ABSTRACT

An information output device includes: a first output unit that outputs acquired information acquired by a sensor; and a second output unit that converts personal information included in the acquired information into attribute information from which identification of an individual is impossible, and outputs the attribute information.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation application of U.S. patentapplication Ser. No. 17/542,688 filed on Dec. 6, 2021, which is acontinuation application of U.S. patent application Ser. No. 16/434,038filed on Jun. 6, 2019, which issued as U.S. Pat. No. 11,227,061, whichis a continuation application of U.S. patent application Ser. No.15/541,179 filed on Jun. 30, 2017, which is a National Stage Entry ofinternational application PCT/JP2016/051147, filed Jan. 15, 2016, whichclaims the benefit of priority from Japanese Patent Application2015-005538 filed on Jan. 15, 2015, the disclosures of all of which areincorporated in their entirety by reference herein.

TECHNICAL FIELD

The present invention relates to an information output device, a camera,an information output system, an information output method, and aprogram.

BACKGROUND ART

The spread of technologies related to IoT (Internet of Things) has ledto various solutions being provided which utilize real-world datacaptured by cameras. As a representative example, security companiesremotely monitor image data captured by security cameras and use it forsecurity purposes such as helping crime prevention. Furthermore, a usagemethod can be considered where an observation camera is installed in asales area to capture the purchasing behavior of customers, analyze thecaptured image data, and use it for marketing.

An image captured by a camera displays a face of an individual and thelike, and the handling of the image data thereof presents a problem.Furthermore, although personal information (image information by whichan individual can be identified) is necessary in a security-purposesystem, in a marketing-purpose system it is sufficient if attributeinformation such as the age group and gender of the customer can beidentified, and it is not necessary for an individual to be identified.Consequently, in general, a security-purpose surveillance camera andsystem, and a marketing-purpose observation camera and system areindependently installed. As a result of such a configuration, a systemfor marketing is such that personal information (image information bywhich an individual can be identified) captured for security purposes isprevented from being leaked.

As a related technique, in Patent Document 1 is disclosed a system that,with respect to image data captured at a kindergarten and the like,protects the privacy of other kindergarten children in a case where aguardian of a certain kindergarten child wishes to browse that imagedata by distributing image data in which masking has been performed withrespect to the faces of the kindergarten children other than the childof that guardian.

PRIOR ART DOCUMENTS Patent Documents

-   [Patent Document 1] Japanese Unexamined Patent Application, First    Publication No. 2009-159221

SUMMARY OF INVENTION Problem to be Solved by the Invention

As mentioned above, if a security camera and system for security and anobservation camera and system for marketing are separately installed,there are problems such as high costs and installation space shortagessince the required equipment costs, installation costs, operation costs,and installation space are doubled.

An exemplary object of the present invention is to provide aninformation output device, a camera, an information output system, aninformation output method, and a program that solve the problemsmentioned above.

Means for Solving the Problem

An information output device according to a first exemplary aspect ofthe present invention includes: a first output unit that outputsacquired information acquired by a sensor; and a second output unit thatconverts personal information included in the acquired information intoattribute information from which identification of an individual isimpossible, and outputs the attribute information.

An information output device according to a second exemplary aspect ofthe present invention includes: an output unit that outputs at least oneof acquired information acquired by a sensor, and attribute informationobtained by converting personal information included in the acquiredinformation into information from which identification of an individualis impossible.

A camera according to a third exemplary aspect of the present inventionincludes any one of the above-mentioned information output devices.

An information output system according to a fourth exemplary aspect ofthe present invention includes: an information output device including afirst output unit and a second output unit, the first output unitencrypting acquired information acquired by a sensor and outputting theencrypted acquired information, the second output unit convertingpersonal information included in the acquired information into attributeinformation from which identification of an individual is impossible andoutputting the attribute information; a first server terminal devicethat acquires the acquired information output by the first output unit;and a second server terminal device that acquires the attributeinformation output by the second output unit. The first server terminaldevice includes a decryption unit that decrypts the acquiredinformation.

An information output system according to a fifth exemplary aspect ofthe present invention includes: an information output device includingan output unit that outputs at least one of acquired informationacquired by a sensor, and attribute information obtained by convertingpersonal information included in the acquired information intoinformation from which identification of an individual is impossible; afirst server terminal device that acquires the acquired informationoutput by the output unit; and a second server terminal device thatacquires the attribute information output by the output unit. The firstserver terminal device includes a decryption unit that decrypts theacquired information.

An information output method according to a sixth exemplary aspect ofthe present invention includes: outputting acquired information acquiredby a sensor; and converting personal information included in theacquired information into attribute information from whichidentification of an individual is impossible, and outputting theattribute information.

An information output method according to a seventh exemplary aspect ofthe present invention includes: outputting at least one of acquiredinformation acquired by a sensor, and attribute information obtained byconverting personal information included in the acquired informationinto information from which identification of an individual isimpossible.

A program according to an eighth exemplary aspect of the presentinvention causes a computer of an information output device to execute:outputting acquired information acquired by a sensor; and convertingpersonal information included in the acquired information into attributeinformation from which identification of an individual is impossible,and outputting the attribute information.

A program according to a ninth exemplary aspect of the present inventioncauses a computer of an information output device to execute: outputtingat least one of acquired information acquired by a sensor, and attributeinformation obtained by converting personal information included in theacquired information into information from which identification of anindividual is impossible.

Effect of the Invention

According to an exemplary embodiment of the present invention, it ispossible to output encrypted information of image data captured by asingle camera and information in which personal information is convertedinto attribute information.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing a configuration of an edge terminal deviceaccording to a first exemplary embodiment of the present invention.

FIG. 2 is a diagram showing a detailed configuration of an edge terminaldevice according to the first exemplary embodiment of the presentinvention.

FIG. 3 is a diagram showing an example of an information output systemaccording to the first exemplary embodiment of the present invention.

FIG. 4 is a diagram showing a process flow of the edge terminal deviceaccording to the first exemplary embodiment of the present invention.

FIG. 5 is a diagram showing a process flow of a server terminal devicein which a security system according to the first exemplary embodimentof the present invention in operation.

FIG. 6 is a diagram showing a process flow of a server terminal devicein which a marketing system according to the first exemplary embodimentof the present invention is in operation.

FIG. 7 is a diagram showing an example of an information output systemaccording to a second exemplary embodiment of the present invention.

FIG. 8 is a diagram showing an example of an information output systemaccording to a third exemplary embodiment of the present invention.

FIG. 9 is a diagram showing a configuration of an edge terminal deviceaccording to a fifth exemplary embodiment of the present invention.

FIG. 10 is a diagram showing a configuration of a camera according to asixth exemplary embodiment of the present invention.

EMBODIMENTS FOR CARRYING OUT THE INVENTION First Exemplary Embodiment

Hereunder, an edge terminal device 1 according to a first exemplaryembodiment of the present invention is described with reference to FIG.1 to FIG. 6 .

FIG. 1 is a diagram showing a configuration of the edge terminal device1 according to the first exemplary embodiment of the present invention.

As shown in FIG. 1 , the edge terminal device 1 includes at least afirst output unit 12 and a second output unit 13.

The first output unit 12 outputs acquired information that is acquiredby a sensor.

The second output unit 13 converts personal information included in theacquired information that is acquired by the sensor into attributeinformation by which an individual cannot be identified, and thenoutputs it. The acquired information that is acquired by the sensorrepresents, for example, image data captured by a camera, audiocollected by a microphone, a fingerprint, a palm print, a vein pattern,and an iris pattern.

FIG. 2 is a diagram showing a detailed configuration of an edge terminaldevice according to the first exemplary embodiment of the presentinvention.

As shown in FIG. 2 , the edge terminal device 1 includes an informationacquisition unit 11, the first output unit 12, the second output unit13, a communication unit 14, an output determination unit 15, a storageunit 16, and a first connection unit 18.

The first connection unit 18 is connected to a sensor S installed in aspace in which a customer is present.

The information acquisition unit 11 acquires from the sensor S, via thefirst connection unit 18, various sensing data (real-world data) relatedto the behavior of a customer and the environment surrounding thecustomer. The sensing data represents image data in which the customerhas been captured for example. Hereunder, a case where the sensor Srepresents a camera, and the acquired information represents image datacaptured by the camera is described as an example. The image dataincludes video and still images.

The first output unit 12, for example, performs scrambling processing(encryption) with respect to image data acquired by the informationacquisition unit 11, and outputs the data following scramblingprocessing to another device via the communication unit 14. The anotherdevice represents an information processing device such as a server thatconfigures a security system of a security company for example.

The second output unit 13 performs personal information conversionprocessing, which converts personal information (information by which anindividual can be identified) included in the acquired information intoattribute information by which an individual cannot be identified. Forexample, the second output unit 13 may change a face of an individualappearing in the image data acquired by the information acquisition unit11 into a mosaic, or replace it with an avatar. The second output unit13 may analyze the image of a customer appearing in the image data usingan image recognition technique to estimate the age group, gender,position information, and the like, of that customer. The second outputunit 13 may calculate from the image data captured over a predeterminedperiod, a flow line and at-shelf behavior of a customer appearing inthat image data, and generate data (such as data converted to text) thatrepresents the behavior of the customer as necessary for marketing. Thesecond output unit 13 outputs the image data, in which personalinformation conversion processing has been performed, to another devicevia the communication unit 14. The another device represents, forexample, an information processing device such as a server thatconfigures a marketing system, which analyzes marketing information in adata center, and the like. A flow line represents information indicatinga movement path of a customer. At-shelf behavior represents behaviorrelating to the selection of products performed by a customer in frontof a product shelf.

The communication unit 14 performs communication with another device.

The output determination unit 15 determines whether or not data obtainedby the personal information conversion processing performed by thesecond output unit 13, is to be output from the second output unit 13.

The storage unit 16 stores a program and various information.

The first output unit 12, the second output unit 13, and the outputdetermination unit 15 are functions provided by a CPU (CentralProcessing Unit) provided in the edge terminal device 1 by executing aprogram.

FIG. 3 is a diagram showing an example of an information output systemaccording to the first exemplary embodiment of the present invention.

The information output system shown in FIG. 3 includes at least one edgeterminal device 1, at least one camera (sensor) 4, a server terminaldevice 2, and a server terminal device 3. The edge terminal device 1 isinstalled in a store 100. The camera 4 is connected to the edge terminaldevice 1. The server terminal device 2 is provided in a data center 200.The server terminal device 3 is provided in a data center 300. The edgeterminal device 1 is installed comparatively near a customer, andperforms processing that is appropriate to perform prior to transmissionto the server terminal devices 2 and 3 of the data centers 200 and 300.In the first exemplary embodiment, for example, the edge terminal device1 performs processing that encrypts personal information, and performsprocessing that converts personal information into attribute informationby which an individual cannot be identified. The edge terminal device 1,the server terminal device 2, and the server terminal device 3 areconnected via a network NW. In the server terminal device 2, a securitysystem for surveillance is in operation. In the server terminal device3, a marketing system is in operation.

As shown in FIG. 3 , the server terminal device 2 includes acommunication unit 21, a decryption unit 22, an application executionunit 23, and a storage unit 24. The communication unit 21 performscommunication with another device, such as the edge terminal device 1and the server terminal device 3. The decryption unit 22 decrypts imagedata following scrambling processing (encrypted) that is acquired fromthe edge terminal device 1. The application execution unit 23 executesrespective application programs of the security system. The storage unit24 stores the various application programs and decrypted image data.

As shown in FIG. 3 , the server terminal device 3 includes acommunication unit 31, an application execution unit 33, and a storageunit 34. The communication unit 31 performs communication with anotherdevice, such as the edge terminal device 1 and the server terminaldevice 2. The application execution unit 33 executes respectiveapplication programs of the marketing system. The storage unit 24 storesthe various application programs, and image data following personalinformation conversion processing that is acquired from the edgeterminal device 1.

The camera 4, for example, is installed at a position overlooking thestore 100, and continuously captures a view of the interior of the store100. The image data captured by the camera 4 is used with an object ofmonitoring shoplifting, robberies, and the like. In addition, it is alsoused to grasp the behavior of customers that shop at the store 100, withan object of utilization in marketing. The camera 4 outputs the capturedimage data to the edge terminal device 1. The edge terminal device 1performs scrambling processing for security with respect to the acquiredimage data. The edge terminal device 1 transmits the image data, inwhich scrambling processing has been performed, to the server terminaldevice (external to the edge terminal device 1) 2. Furthermore, the edgeterminal device 1 performs personal information conversion processingfor marketing with respect to the acquired image data. The edge terminaldevice 1 transmits the image data in which personal informationconversion processing has been performed, to the server terminal device(external to the edge terminal device 1) 3.

In the server terminal device 2, the security system is in operation.For example, a security guard monitors image data received by the serverterminal device 2. The image data received by the server terminal device2 is stored for a predetermined period as evidence in a storage deviceprovided in the data center 200 (or the storage unit 24).

The server terminal device 3 analyzes, as objects, image data receivedfrom the edge terminal device 1 and data in which image recognition hasbeen performed and then converted to text. The server terminal device 3may, based on the analysis result, deduce a top-selling product for eachage group and gender. The server terminal device 3 may calculate, basedon the analysis result, a location through which many customers pass,from the flow lines of the customers within the store, and performmarketing analysis that generates information that serves as a referencefor product arrangement locations. A flow line represents informationshowing the path moved by a customer.

The security image data is preferably image data that includes personalinformation (an image by which a face can be recognized for example).This is because it is necessary for the security system to identify theperson that carried out the shoplifting, and the like. However, if imagedata that includes personal information is transmitted as is from theedge terminal device 1 of the store 100 to the server terminal device 2of the data center 200 via the network NW, for example, it is possiblefor that personal information to be leaked by means of a packet beingcaptured during network transmission. Consequently, in the edge terminaldevice 1, the first output unit 12 performs scrambling processing(encryption) with respect to the image data to be transmitted, by meansof a predetermined method. The communication unit 14 transmits the imagedata following scrambling processing to the server terminal device 2. Asa result, it is possible to prevent personal information from beingleaked during network transmission. The server terminal device 2performs descrambling processing with respect to the received imagedata, to return it to the original image prior to scrambling processing.A decryption key that decrypts the image data in which scramblingprocessing was performed by the first output unit 12, is held only bythe server terminal device 2. Consequently, only the server terminaldevice 2 is able to decrypt the acquired image data, and restore theoriginal image data that includes personal information. On the otherhand, even if a third party obtains the image data transmitted by thefirst output unit 12, it is not possible to restore it to the originalimage data that includes personal information. Therefore, it is possibleto prevent personal information from being leaked. The server terminaldevice 2 may enable monitoring by a security guard by utilizing thedecrypted image data. The server terminal device 2 may also compareagainst image data of a person that has caused some problem behavior inthe past who is registered in a so-called blacklist, and check if theperson registered in the blacklist appears in the decrypted securityimage data.

Next, it is not necessary for the marketing data (or image data) toinclude data by which an individual can be identified. This is becausein the marketing system it is sufficient if attribute information, suchas the age group and gender of the customer, can be acquired.Furthermore, the transmission and reception of image data that includespersonal information as is via the network NW, and storage in the serverterminal device 3, and the like, is a problem from the perspective ofpersonal information being leaked. Therefore, the second output unit 13extracts, with respect to the image data captured by the camera 4,attribute information of a customer appearing in the image, which isconfigured by the image data, and transmits the extracted attributeinformation and the image data, which has been converted such thatpersonal information cannot be recognized, to the server terminal device3 of the data center 300. The processing that performs conversion suchthat personal information cannot be recognized is performed by thesecond output unit 13. The second output unit 13 may perform imageprocessing that recognizes the face of a customer by means of imagerecognition, and then changes the area of the face into a mosaic forexample. In this case, the second output unit 13 records the attributeinformation, such as the age group and gender of that customer, in thestorage unit 16 such that it is associated with the identifyinginformation of the same customer. The second output unit 13 may replacethe face image of the customer with an avatar image. In this case, theavatar image that is substituted represents an avatar image that isassociated with the attribute information such as the age group and thegender of that customer. The second output unit 13 may record theattribute information of the customer in the storage unit 16 such thatit is associated with the identifying information of the avatar image.The second output unit 13 transmits to the server terminal device 3,together with the image data in which the conversion of personalinformation has been performed, data in which the attribute informationof the customer has been associated with the customer or an avatarimage. If the image data is such that the conversion of personalinformation has been performed, then there is no concern for leakage ofpersonal information to occur even if it is stolen and accessed at thetime of transmission and reception via the network NW. Furthermore, evenif the image data, in which conversion of personal information has beenperformed, is stored on the server terminal device 3 for marketinganalysis, there is no need for concern regarding the handling ofpersonal information.

Since, the server terminal device 3 acquires image data which has beenconverted such that personal information cannot be recognized, andattribute information of the customer, it can perform marketinganalysis. For example, the server terminal device 3 may acquire imagedata following personal information conversion processing and theattribute information of the customer, and perform analysis of flowlines showing the movement path of the customer in the store, and of theat-shelf behavior, such as which products were picked up and thenactually purchased or returned to the shelf. In the presentspecification, the attribute information not only represents the agegroup and gender of the customer, but also includes flow lines, theat-shelf behavior, the position information of the customer, and thelike. That is to say, the second output unit 13 is provided with afunction of performing marketing analysis, and it may perform, by meansof that function, analysis of flow lines and at-shelf behavior andgenerate information including the age group, gender, flow lines, andat-shelf behavior of the customer as text data. Further, the secondoutput unit 13 may transmit the text data to the server terminal device3.

Next, output processing by the edge terminal device 1 is described.

FIG. 4 is a first diagram showing a process flow of the edge terminaldevice 1 according to the first exemplary embodiment of the presentinvention.

The processing by which the edge terminal device 1 converts and outputsimage data is described with reference to FIG. 4 . As a prerequisite, astate is assumed in which a view of the store 100 is being captured bythe camera 4.

Firstly, in the edge terminal device 1, the information acquisition unit11 acquires from the camera 4, image data captured by the camera 4 (stepS11). The information acquisition unit 11 outputs the acquired imagedata to the first output unit 12. Then, the first output unit 12, forexample, acquires an encryption key recorded beforehand in the storageunit 16 (step S12). Next, the first output unit 12 uses the encryptionkey to perform scrambling processing with respect to the image dataacquired from the information acquisition unit 11 (step S13). Theencryption key is, for example, a public key or a common key provided bythe security system-side. The scrambling processing may be performedusing a well-known image encryption method. Then, the first output unit12 transmits the security image data following scrambling processing, tothe server terminal device 2 via the communication unit 14 (step S14).

The edge terminal device 1 performs the following processingconcurrently with the processing of step S12 to step S14. Firstly, theoutput determination unit 15 determines whether or not to perform outputof marketing image data from the second output unit 13 (step S15). Forexample, if the current time is not within the business hours of thestore 100, then there are no customers within the store 100 andpurchasing behavior is not generated. Consequently, the utility value asimage data for marketing is low. Therefore, in a time period where thereare no customers, output of marketing image data is not necessarilyperformed. In this case, for example, the business hours of the store100 are recorded beforehand in the storage unit 16. The outputdetermination unit 15 reads out information regarding the business hoursfrom the storage unit 16, and determines whether or not the current timeis included in the business hours. If the current time is included inthe business hours, the output determination unit 15 determines thatoutput of marketing image data is to be performed. Even if the currenttime is within business hours, output of marketing image data may be notperformed if there are no customers. In this case, a face image of thestore clerk is recorded beforehand in the storage unit 16. The outputdetermination unit 15 acquires image data from the image acquisitionunit 11, and confirms whether a person other than the store clerkappears in the acquired image data by means of image recognition. If aperson other than the store clerk appears in the image data, the outputdetermination unit 15 may determine that output of marketing image datais to be performed.

If the output determination unit 15 determines that output of marketingimage data is to be performed (step S15: Yes), the informationacquisition unit 11 outputs the acquired image data to the second outputunit 13.

The second output unit 13 performs personal information conversionprocessing with respect to the acquired image data (step S16). Thesecond output unit 13 recognizes from the acquired image data, thepeople appearing in the picture, and estimates the age group and thegender of each person based on the face image of each person using awell-known face recognition technique or the like.

For example, the second output unit 13, recognizes the color of theclothing worn by that person or the like by a well-known colorrecognition technique, and may, using this as a symbol to identify thatperson, store attribute information, such as the estimated gender, andthe person, in the storage unit 16 such that they are associated. Theinformation in which the attribute information and the person areassociated represents, for example, information in which a person, suchas “a customer wearing red clothing”, is associated with attributeinformation, such as “gender: female” and “age group: twenties”.

Alternatively, the second output unit 13 may perform the followingprocessing. That is to say, the second output unit 13 reads out anavatar image stored beforehand that corresponds to the estimated agegroup and gender from the storage unit 16. The second output unit 13recognizes the face image of the person by means of a facial recognitiontechnique. The second output unit 13 replaces the face image of theperson with an avatar image that is similar to the contours of the faceof that person.

As another alternative method, the second output unit 13 may perform thefollowing processing in a case where it has a marketing analysisfunction. That is to say, the second output unit 13 acquires image datacaptured over a predetermined period. The second output unit 13 uses theclothing or the like worn by each person as a symbol to calculateposition information of the person in each picture by, for example, awell-known technique such as a characteristic point extraction andobject tracking technique. Further, the second output unit 13 maycalculate a flow line for each person based on time series positioninformation. The second output unit 13 may detect arm movements and facedirection changes from a plurality of time series image data, andanalyze the at-shelf behavior of the person by a movement in which theperson extends a hand to the product shelf, by the direction in whichthe line-of-sight is directed, and the like. The second output unit 13may generate data, in addition to the age group and the gender, in whichinformation such as the flow line, and the at-shelf behavior, areconverted to text. The data converted to text represents, for example,information such as “customer 001, male, twenties, moved between shelf Aand shelf B, picked up product C and purchased it”. The second outputunit 13 outputs image data, which has been converted such that personalinformation cannot be recognized by the second output unit 13, or dataconverted to text. The second output unit 13 transmits marketing imagedata (including attribute information and data converted to text) to theserver terminal device 3 (step S17).

If the output determination unit 15 determines that output of marketingimage data is to not be performed (step S15: No), the processingproceeds to step S18.

Then, for example, if the camera 4 ends imaging in accordance with animaging stopping operation by an administrator and the like (step S18:Yes), the current process flow ends. If the camera 4 is in a period inwhich imaging is continued (step S18: No), the processing from step S11is repeated.

A case where, in step S13, an encryption key is recorded beforehand inthe storage unit 16 was described as an example. However, the firstexemplary embodiment is in no way limited to such a configuration. As anexample, a case where the server terminal device 2 includes anencryption key generation unit 25 (refer to FIG. 3 ) is described. Inthis case, the encryption key generation unit 25 generates an encryptionkey (one-time password) at predetermined intervals. The communicationunit 21 transmits that encryption key. The communication unit 14acquires that encryption key via the network NW. The first output unit12 performs scrambling processing with that encryption key.

The output determination unit 15 may determine by means of imagerecognition whether or not a person is included in the image data, andthe first output unit 12 be made to perform scrambling processing onlyin a case where a person is included in the image data. The first outputunit 12 may recognize the face of a person by means of imagerecognition, and perform scrambling processing with respect to only theface of the person.

FIG. 5 is a diagram showing a process flow of a server terminal device 2in which a security system according to the first exemplary embodimentof the present invention is in operation.

The processing up until the security system operated by the serverterminal device 2 utilizes the image data acquired from the edgeterminal device 1, is described with reference to FIG. 5 .

Firstly, in the server terminal device 2, the communication unit 21acquires security image data via a network (step S21). The communicationunit 21 outputs the acquired security image data to the decryption unit22. Then, the decryption unit 22, for example, uses a private keycorresponding to the public key used in the scrambling processing by thefirst output unit 12, to perform descrambling processing that decryptsthe acquired security image data (step S22). The decryption unit 22records the image data, including the decrypted personal information, inthe storage unit 24. Next, the application execution unit 23 executes anapplication program of the security system, and utilizes the image datafollowing descrambling (step S23). A specific example relating to theutilization of image data is described. For example, the applicationexecution unit 23 may compare by means of a facial recognitiontechnique, the image data of the person appearing in the image, which isconfigured by image data, against image data of a person registered in ablacklist and the like, to determine whether or not a person viewed asdangerous is present in the store 100. As another example, in a casewhere a security guard performs real-time surveillance and discoversthat a robbery, shoplifting, and the like, has occurred in the store100, the image data may be used to identify a person involved in theincident.

FIG. 6 is a diagram showing a process flow of a server terminal device 3in which a marketing system according to the first exemplary embodimentof the present invention is in operation.

The processing up until the marketing system operated by the serverterminal device 3 utilizes the image data acquired from the edgeterminal device 1, is described with reference to FIG. 6 .

Firstly, in the server terminal device 3, the communication unit 31acquires marketing image data via the network NW (step S31). Thecommunication unit 31 records the acquired marketing image data in thestorage unit 34. Then, the application execution unit 33 executes anapplication program of the marketing system and utilizes the image datain which the personal information has been converted to attributeinformation, and the attribute information (step S32). A specificexample of utilization of image data and attribute information isdescribed. For example, the application executing unit 33 may generateinformation that is useful for promoting sales by predicting productdemand from the attribute information (age group, gender, flow line,at-shelf behavior) of the customer appearing in the image data, andanalyzing purchasing trends according to the age group, the gender, theregion, the season, and the like.

According to the first exemplary embodiment, it is possible to outputdata in which personal information for security is included, and data inwhich attribute information of a customer for marketing is included,without separately installing a security camera and system for security,and an observation camera and system for marketing.

Second Exemplary Embodiment

Hereunder, an information output system according to a second exemplaryembodiment of the present invention is described with reference to FIG.7 .

FIG. 7 is a diagram showing an example of the information output systemaccording to the second exemplary embodiment of the present invention.The sections in which the second exemplary embodiment are different fromthe first exemplary embodiment are described with reference to FIG. 7 .

As shown in FIG. 7 , in the information output system according to thesecond exemplary embodiment, an external terminal unit 5 is connected tothe edge terminal device 1. The external terminal unit 5 is, forexample, provided from the administrator of the security system of theserver terminal device 2 to the store 100 that utilizes the services ofthat security system. The external terminal unit 5 represents a USBdongle for example. The external terminal unit 5 has recorded in it, anencryption program that performs scrambling processing, and anencryption key. The first output unit 12 of the edge terminal device 1calls and executes the encryption program recorded in the externalterminal unit 5, and performs scrambling processing with respect to theimage data acquired from the information acquisition unit 11.

In a case where the external terminal unit 5 is not connected, the firstoutput unit 12 does not operate, and output of image data is unable tobe performed. In the server terminal device 2, a decryption keycorresponding to the encryption key, which is recorded in the externalterminal unit 5, is recorded in the storage unit 24. The decryption unit22 performs descrambling processing with respect to the image data usingthe decryption key.

In this manner, a portion of the scrambling processing function of thefirst output unit 12 delegated to the external terminal unit 5. Further,the provider of the external terminal unit 5 is the administrator of thesecurity system. Consequently, the administrator of the security systemis able to conceal information related to the encryption of the imagedata. As a result, security is more easily assured.

Furthermore, it is not necessary for the edge terminal device 1 toimplement a scrambling processing function. Therefore, development costscan be inhibited.

Third Exemplary Embodiment

Hereunder, an information output system of a third exemplary embodimentof the present invention is described with reference to FIG. 8 .

FIG. 8 is a diagram showing an example of the information output systemaccording to the third exemplary embodiment of the present invention.The sections in which the third exemplary embodiment are different fromthe first and second exemplary embodiments are described with referenceto FIG. 8 .

As shown in FIG. 8 , in the information output system according to thethird exemplary embodiment, a card reading device 6 is connected to theedge terminal device 1. That is to say, the edge terminal device 1 has asecond connection unit 19 to which the card reading device 6 isconnected. The card reading device 6 is equipped with a key card 7 inwhich an encryption key is recorded. The first output unit 12 of theedge terminal device 1 reads out the encryption key recorded in the keycard 7 via the second connection unit 19. The first output unit 12utilizes the encryption key that was read out, to perform scramblingprocessing with respect to image data acquired from the informationacquisition unit 11. In the same manner, a card reading device 8 isconnected to the server terminal device 2. That is to say, the serverterminal device 2 has a connection unit 26 to which the card readingdevice 8 is connected. The card reading device 8 is equipped with a keycard 9 for example. A decryption key corresponding to the encryption keyof the key card 7 is recorded in the key card 9. In the server terminaldevice 2, the decryption unit 22 uses the decryption key recorded in thekey card 9, to decrypt the image data following scrambling processingacquired from the edge terminal device 1. An IC card may be used as thekey card 7 and the key card 9 for example.

In this manner, in the third exemplary embodiment, the encryption key ismodularized and recorded in a detachable medium (key card). As a resultof using key cards 7 and 9 in which a digital certificate issued by anofficial authentication organization is stored, the reliability of theencryption system is assured, and it is possible to reduce the risk ofpersonal information being leaked.

Fourth Exemplary Embodiment

The first to third exemplary embodiments were described using an exampleof a case where the acquired information that is acquired by theinformation acquisition unit 11 is image data. The fourth exemplaryembodiment is an exemplary embodiment in which the acquired informationis not image data.

[When Acquired Information is Audio]

In a case where the acquired information is audio, the sensor Sconnected to the edge terminal device 1 represents, for example, amicrophone provided with a sound collection function. The first outputunit 12 encrypts the audio data that is acquired by the microphone, andthen outputs it. The second output unit 13 estimates the age group andgender of the speaker from the acquired audio data, associates theestimated information with that audio data, and records it in thestorage unit 16. The second output unit 13 performs, as personalinformation conversion processing, processing such as band compressionor noise addition with respect to the acquired audio data, such that anindividual cannot be identified by voiceprint analysis. Then, the secondoutput unit 13 outputs the audio data after personal informationconversion processing has been performed. The second output unit 13 mayoutput attribute information together with the audio data after thepersonal information conversion processing has been performed. Thesecond output unit 13 may, in addition to the age group of the speaker,convert the spoken content to text data by means of a voice recognitiontechnique, and then output the text data, and the like.

In a case where the acquired information is audio, information such asthe gender, the age group, and the spoken content represent attributeinformation.

In the server terminal device 2, the decryption unit 22 decrypts theencrypted audio. An application program of the security system that isexecuted by the application execution unit 23 may use the audio datafollowing decryption to perform surveillance. The application executionunit 23 may record the audio data following decryption in the storageunit 24 as evidence.

In the server terminal device 3, an application program of the marketingsystem executed by the application execution unit 33 may use theattribute information and the audio data following conversion, or thetext data from voice recognition, acquired via the communication unit31, to analyze the needs of a customer that has visited the store 100,and the like. For example, as a result of the store clerks wearing amicrophone, and performing analysis of a conversation between a storeclerk and a customer, it is possible to analyze the types of productsthe customer is searching for, or a complaint from the customer, and touse this to create better stores.

[When Acquired Information is Fingerprint, Palm Print, Vein Pattern,Iris Pattern, and the Like]

In a case where the acquired information is fingerprint data, the sensorS represents a fingerprint sensor. Currently, the use of biometricauthentication by means of fingerprint data, and the like, isprogressing. A specific example of a case where a fingerprint sensor isinstalled in a store 100 is described below.

In the store 100, a special customer system which provides a variety ofbenefits is introduced. As a condition of a certain customer becoming aspecial customer of the store 100, fingerprint data of that customer,and personal information of that customer are recorded beforehand in thestorage unit 16 of the edge terminal device 1 such that they areassociated. When that customer performs authentication by bringing afinger into contact with a fingerprint sensor at an entrance or at aregister, points are added each time that customer comes to the storefor example. If fingerprint authentication is performed at a register,points corresponding to the purchase amount are applied. In this case,the first output unit 12 encrypts the fingerprint data acquired from thefingerprint sensor connected to the edge terminal device 1, and thenoutputs it. From the acquired fingerprint data, the second output unit13 acquires information such as the age group and gender of the customerfrom the personal information of the customer, which is stored in thestorage unit 16 of the edge terminal device 1 in association with thefingerprint data. In the case where the storage unit 16 records for eachcustomer, information such as whether that customer is a good customer,and the number of store visits, such that it is associated with thefingerprint data, the second output unit 13 may read out these pieces ofinformation. Such information, that is to say, information such as thegender, the age group, whether or not the customer is a good customer,and the number of store visits, represents attribute information. Thesecond output unit 13 outputs the attribute information corresponding tothe fingerprint data acquired from the information acquisition unit 11.

In the server terminal device 2, the decryption unit 22 decrypts theencrypted fingerprint data. An application program of the securitysystem executed by the application execution unit 23 records thefingerprint data following decryption in the storage unit 24, forexample, such that it is associated with the position information of thestore 100 and the time in which the fingerprint data was acquired.Consequently, it becomes evidence that the customer was present in thestore 100 at that time.

In the server terminal device 3, an application program of the marketingsystem executed by the application execution unit 33 uses the attributeinformation acquired via the communication unit 31 to perform analysisof the purchasing behavior of the special customers visiting the store100, and the like. For example, if the store 100 is a chain store, it ispossible to know the purchasing behavior of the special customers acrossa plurality of stores. A case where the acquired information representsa palm print, a vein pattern, or an iris pattern, is the same as thecase of fingerprint data.

Fifth Exemplary Embodiment

A fifth exemplary embodiment is an exemplary embodiment of a case wherethere is only one output unit. Hereunder, an edge terminal device 1according to the fifth exemplary embodiment of the present invention isdescribed with reference to FIG. 9 .

FIG. 9 is a diagram showing a configuration of the edge terminal device1 according to the fifth exemplary embodiment of the present invention.

As shown in FIG. 9 , the edge terminal device 1 includes at least anoutput unit 17.

The output unit 17 outputs, at least one of first output information,which outputs acquired information that is acquired by a sensor, andsecond output information, in which personal information included in theacquired information that is acquired by the sensor is converted intoattribute information by which an individual cannot be identified.

An example of a specific configuration of the edge terminal device 1 inthe fifth exemplary embodiment is described. The edge terminal device 1in the fifth exemplary embodiment, in addition to the output unit 17,includes, an information acquisition unit 11, a communication unit 14,an output determination unit 15, and a storage unit 16. Theconfiguration of these is the same as the configuration described withreference to FIG. 2 .

A process flow of the fifth exemplary embodiment is described withreference to FIG. 4 . Firstly, the information acquisition unit 11acquires image data captured by the camera 4 (step S11). The informationacquisition unit 11 outputs the acquired image data to the output unit17. Then, the output unit 17 acquires an encryption key (step S12), andperforms scrambling processing with respect to the image data acquiredfrom the information acquisition unit 11 (step S13). Next, the outputunit 17 selects the communication interface of the communication unit 14that is connected to the server terminal device 2, and transmitssecurity image data following scrambling processing (first outputinformation) to the server terminal device 2 via that communicationinterface (step S14).

The output determination unit 15 determines whether or not to outputmarketing image data (step S15), and outputs the result thereof to theoutput unit 17. The output determination unit 15 may determine, by meansof image recognition, whether or not a person is included in the imagedata, and it may determine that marketing image data is to be outputonly in a case where a person is included in the image data. If theoutput determination unit 15 determines that marketing image data is tobe output, the output unit 17 performs personal information conversionprocessing with respect to the image data acquired from the informationacquisition unit 11 (step S16), and generates marketing image data(including attribute information and data converted to text). Then, theoutput unit 17 selects the communication interface of the communicationunit 14 that is connected to the server terminal device 3, and transmitsthe generated marketing image data (second output information) to theserver terminal device 3 via that communication interface (step S17).The other processing steps are the same as in the first exemplaryembodiment.

The output determination unit 15 may determine, by means of imagerecognition, whether or not a person is included in the image data, andit may transmit security image data to the server terminal device 2 onlyin a case where a person is included in the image data.

Sixth Exemplary Embodiment

Hereunder, a camera 5 according to a sixth exemplary embodiment of thepresent invention is described with reference to FIG. 10 .

As shown in FIG. 10 , the camera 5 includes an edge terminal device 1and a camera function unit 51. The configuration and the functions ofthe edge terminal device 1 shown in FIG. 10 are the same as those of theedge terminal device 1 shown in FIG. 1 except in the aspect that thecamera function unit 51 is connected to the first connection unit 18instead of the sensor S. The configuration and the functions of thecamera function unit 51 are the same as the camera 4 shown in FIG. 3 .

The edge terminal device 1 mentioned above has a computer in itsinterior. Further, the processing steps of the edge terminal device 1mentioned above are recorded in a computer-readable recording medium inthe form of a program, and the processing described above is performedby means of the computer reading the program and then executing it.Here, the computer-readable recording medium refers to a magnetic disk,a magnetic optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory,and the like. Furthermore, the computer program may be distributed to acomputer by means of a communication line, and the computer receivingthe distribution may execute that program.

The program described above may represent a program for realizing aportion of the functions mentioned above.

The program described above may be one that realizes the functionsmentioned above by being combined with a program already stored in thecomputer system, as a so-called difference file (difference program).

In addition, the configuration elements in the exemplary embodimentsdescribed above may be appropriately substituted with well-knownconfiguration elements without departing from a scope of the presentinvention. For example, the video data may be also audio data or imagedata, such as a still image. Furthermore, the technical scope of thepresent invention is in no way limited to the exemplary embodimentsdescribed above, and various changes may be applied without departingfrom the scope of the present invention. The edge terminal device 1 isan example of an information output device. The server terminal device 2is an example of a first server terminal device. The server terminaldevice 3 is an example of a second server terminal device. The externalterminal unit 5 is an example of an external connection device.

This application is based upon and claims the benefit of priority fromJapanese patent application No. 2015-005538, filed Jan. 15, 2015, thedisclosure of which is incorporated herein in its entirety by reference.

INDUSTRIAL APPLICABILITY

The present invention may be applied to an information output device, acamera, an information output system, an information output method, anda program.

REFERENCE SYMBOLS

-   1 Edge terminal device-   2 Server terminal device-   3 Server terminal device-   4 Camera-   5 External terminal unit-   6, 8 Card reading device-   7, 9 Key card-   11 Information acquisition unit-   12 First output unit-   13 Second output unit-   14 Communication unit-   15 Output determination unit-   16 Storage unit-   18 First connection unit-   19 Second connection unit-   21, 31 Communication unit-   22 Decryption unit-   23, 33 Application execution unit-   24, 34 Storage unit-   26 Connection unit-   51 Camera function unit

1. An information output device comprising: at least one memoryconfigured to store instructions; and at least one processor configuredto execute the instructions to: acquire biological information from asensor; acquire attribute information of a person, the attributeinformation being associated with the biological information; and outputthe attribute information.
 2. The information output device according toclaim 1, wherein the attribute information represents at least any oneof an age group, gender, whether or not the person is a good customer,and a number of store visits.
 3. The information output device accordingto claim 1, wherein the biological information includes at least any oneof a fingerprint, a palm print, a vein pattern, and an iris pattern. 4.The information output device according to claim 1, wherein the outputattribute information is used for marketing analysis.
 5. The informationoutput device according to claim 4, wherein the at least one processoris further configured to execute the instructions to perform themarketing analysis.
 6. The information output device according to claim5, wherein the at least one processor is further configured to executethe instructions to analyze a purchasing behavior of the person by usingthe attribute information.
 7. The information output device according toclaim 6, wherein the at least one processor further is configured toexecute the instructions to analyze the purchasing behavior across aplurality of chain stores.
 8. The information output device according toclaim 1, wherein the at least one processor further is configured toexecute the instructions to: acquire the biological information which isencrypted from the sensor; and decrypt the acquired biologicalinformation.
 9. An information output method comprising: acquiringbiological information from a sensor; acquiring attribute information ofa person, the attribute information being associated with the biologicalinformation; and outputting the attribute information.
 10. Anon-transitory computer-readable recording medium storing a program forcausing a computer to execute: acquiring biological information from asensor; acquiring attribute information of a person, the attributeinformation being associated with the biological information; andoutputting the attribute information.